Skin material and method for producing the same

ABSTRACT

The method for producing a skin material is a method for producing a skin material having a concave part formed on the front surface side, comprising heat-pressing a raw material between an embossing die and an elastic sheet to form the concave part and, at the same time, forming a convex part on a bottom surface of the concave part.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application claims priority under 35 U.S.C. § 119 ofJapanese Application No. 2019-78904 filed on Apr. 17, 2019, thedisclosure of which is expressly incorporated by reference herein in itsentirety.

BACKGROUND OF THE INVENTION (1) Field of the Invention

The present invention relates to a skin material and a method forproducing the same, and more particularly, to a skin material having aconcave part formed on the front surface side and a method for producingthe same.

(2) Description of Related Art

As a conventional method for producing a skin material, there isgenerally known a production method involving the use of an embossingdie to obtain a skin material having a concave part on the front surfaceside (see, for example, JP 2017-213865 A). JP 2017-213865 A describesthat the concave part is formed by heat-pressing a raw material betweenthe embossing die and a metal pedestal.

However, since the concave part is formed by heat-pressing the rawmaterial between the embossing die and the metal pedestal in thetechnique described in JP 2017-213865 A, an elongated line- or dottedline-shaped convex part or small dot-shaped convex parts cannot beclearly expressed on the bottom surface of the concave part. Therefore,the degree of freedom in design expression in the skin material cannotbe increased.

Although JP 2017-113937 A describes a production method comprisingheat-pressing a sheet raw material 2 between an embossing plate 41 and acushion material 45 to obtain a sheet fabric 1. This cushion material 45is used to bite the sheet raw material 2 into a concave part 41″ of theembossing plate 41 for the purpose of sharpening the corner of a convexpattern 3 of the sheet fabric 1 (see, for example, paragraph [0012] andFIG. 3). JP 2017-113937 A nowhere discloses expressing an elongatedline- or dotted line-shaped convex part or small dot-shaped convex partson the bottom surface of a concave pattern 3′.

SUMMARY OF THE INVENTION

An embodiment of the present invention has been made in view of theabove circumstances, and an object thereof is to provide a skin materialcapable of increasing the degree of freedom in design expression and amethod for producing the same.

One aspect of the present embodiments provides a method for producing askin material having a concave part formed on a front surface side,comprising: heat-pressing a raw material between an embossing die and anelastic sheet to form the concave part and; at the same time, forming aconvex part on a bottom surface of the concave part.

In a further aspect, a pressing rib may be protrudingly provided on asurface of the embossing die, the pressing rib may be formed with a gappart that opens at its tip end surface, and, during the heat-pressing,the pressing rib may press the front surface side of a part of the rawmaterial to form the concave part, and, at the same time, a part of theraw material may be pushed out into the gap part by repulsive force ofthe elastic sheet due to the pressing of the pressing rib to form theconvex part.

In a further aspect, the heat-pressing may be performed in a state wherethe surface of the embossing die on which the pressing rib isprotrudingly provided is spaced apart from the front surface of the rawmaterial.

One aspect of the present embodiments provides a skin material having aconcave part formed on a front surface side, wherein a convex part isformed on the bottom surface of the concave part.

In a further aspect, the convex part may be formed to extend linearly ina plan view or a plurality of the convex parts may be formed to bearranged in a line in a plan view.

In a further aspect, the concave part may be formed to extend linearlyin a plan view.

In a further aspect, a width of the convex part may be 0.3 to 10 mm.

In a further aspect, the skin material may include a base cloth layercontaining at least thermoplastic resin fibers and made of a knit, and askin layer bonded to a surface of the base cloth layer, in the basecloth layer, a concave heat-deformed part in which the thermoplasticresin fibers are thermally deformed may be formed at a positioncorresponding to the concave part, the heat-deformed part may include abulging part at a position corresponding to the convex part, and theskin layer may follow a surface shape of the heat-deformed part.

According to the method for producing a skin material according to thepresent embodiment, a raw material is heat-pressed between an embossingdie and an elastic sheet to form a concave part, and, at the same time,a convex part is formed on the bottom surface of the concave part. Thus,an elongated line- or dotted line-shaped convex part or small dot-shapedconvex parts is/are clearly expressed on the bottom surface of theconcave part. Therefore, the degree of freedom of design expression inthe skin material can be increased.

When a pressing rib is protrudingly provided on a surface of theembossing die; the pressing rib is formed with a gap part; and, duringthe heat-pressing, the pressing rib presses the front surface side of apart of the raw material to form the concave part, and, at the sametime, a part of the raw material is pushed out into the gap part byrepulsive force of the elastic sheet due to the pressing of the pressingrib to form the convex part, an elongated line- or dotted line-shapedconvex part or small dot-shaped convex parts is/are more clearlyexpressed.

Furthermore, when the heat-pressing is performed in a state where thesurface of the embossing die on which the pressing rib is protrudinglyprovided is spaced apart from the front surface of the raw material,thermal deterioration of the front surface of the skin material issuppressed.

In the skin material of the present embodiment, the convex part isformed on the bottom surface of the concave part. Thus, an elongatedline- or dotted line-shaped convex part or small dot-shaped convex partsis/are clearly expressed on the bottom surface of the concave part.Therefore, the degree of freedom of design expression in the skinmaterial can be increased.

When the convex part is formed to extend linearly in a plan view or aplurality of the convex parts are formed to be arranged in a line, anelongated line- or dotted line-shaped convex part is clearly expressed.

When the concave part is formed to extend linearly in a plan view, anelongated line- or dotted line-shaped convex part is clearly expressedalong the bottom surface of the linear concave part.

Further, when a width of the convex part is 0.3 to 10 mm, a moreelongated line- or dotted line-shaped convex part or smaller dot-shapedconvex parts is/are clearly expressed.

Further, when the skin material includes a base cloth layer and a skinlayer; in the base cloth layer, a concave heat-deformed part in whichthe thermoplastic resin fibers are thermally deformed is formed at aposition corresponding to the concave part; the heat-deformed partincludes a bulging part at a position corresponding to the convex part;and the skin layer follows the surface shape of the heat-deformed part,an elongated line- or dotted line-shaped convex part or small dot-shapedconvex parts can be more clearly expressed, and the skin material canhave appropriate cushioning properties.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is further described in the detailed descriptionwhich follows, in reference to the noted plurality of drawings by way ofnon-limiting examples of exemplary embodiments of the present invention,in which like reference numerals represent similar parts throughout theseveral views of the drawings, and wherein:

FIG. 1 is a perspective view of a skin material according to Example 1;

FIG. 2 is an enlarged cross-sectional view taken along line II-II ofFIG. 1;

FIG. 3 is a plan view of a door trim provided with the skin material;

FIG. 4 is an enlarged cross-sectional view taken along line IV-IV ofFIG. 3;

FIGS. 5A and 5B are explanatory views for explaining a method forproducing the skin material, in which FIG. 5A shows a die open state(raw material setting state) before embossing, and FIG. 5B shows a dieclose state during embossing;

FIG. 6 is an explanatory view for explaining the method for producingthe skin material, which shows a die open state after embossing;

FIG. 7 is a plan view of an embossing die used in the method forproducing the skin material;

FIG. 8 is a perspective view of a skin material according to Example 2;

FIG. 9 is an enlarged cross-sectional view taken along line IX-IX ofFIG. 8;

FIG. 10 is a plan view of an embossing die used in a method forproducing the skin material;

FIGS. 11A and 11B are explanatory views for explaining skin materialsaccording to still other forms, in which FIG. 11A shows a curved convexpart, FIG. 11B shows a plurality of convex parts arranged in a curve,FIG. 11C shows a plurality of convex parts that intersect, and FIG. 11Dshows a convex part having a width different in the longitudinaldirection; and

FIG. 12 is an explanatory view for explaining a skin material accordingto still another form.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The particulars shown herein are by way of example and for purposes ofillustrative discussion of the embodiments of the present invention onlyand are presented in the cause of providing what is believed to be themost useful and readily understood description of the principles andconceptual aspects of the present invention. In this regard, no attemptis made to show structural details of the present invention in moredetail than is necessary for the fundamental understanding of thepresent invention, the description is taken with the drawings makingapparent to those skilled in the art how the forms of the presentinvention may be embodied in practice.

Skin Material

A skin material according to the present embodiment is a skin material(1, 31) having a concave part (2, 32) formed on the front surface side,wherein a convex part (3, 33, 43) is formed on a bottom surface (2 a, 32a) of the concave part, for example, as shown in FIGS. 1 and 8.

The shape, placement, number and the like of the concave part 32) arenot particularly limited. The depth (d) of the concave part is, forexample, 0.5 to 20 mm (preferably 1 to 10 mm) (for example, see FIG. 2).Further, the concave part can be formed, for example, to extend linearlyin a plan view. In this case, the width (w2) of the concave part in theshort length direction is, for example, 1 to 20 mm (preferably 1 to 10mm). The width (w2) of the concave part in the short length directionmay be uniform along the long length direction thereof, or may bedifferent in the long length direction thereof (for example, see FIG.11D). In addition, for example, as shown in FIG. 12, the concave partcan be formed to expand in a planar shape in a plan view. Furthermore,the bottom surface (2 a, 32 a) of the concave part may be, for example,formed as a plane parallel to the bottom surface of the skin material(1, 31) or formed as a tapered surface inclined with respect to thebottom surface of the skin material.

The shape, size, placement, number and the like of the convex part (3,33, 43) are not particularly limited. The convex part usually has aheight (h) smaller than the depth (d) of the concave part (2, 32) (forexample, see FIG. 2). In addition, the convex part is usually formed ina mountain shape (i.e., a bulging shape) in a vertical cross section.The width (w1) of the convex part is, for example, 0.3 to 10 mm(preferably 0.5 to 5 mm, particularly 3 mm or less, more preferably 2 mmor less). The height (h) of the convex part is, for example, 0.1 to 10mm (preferably 0.1 to 5 mm). Further, from the viewpoint of thevisibility (clarity) of the convex part, the ratio (h/w1) of the height(h) to the width (w1) of the convex part is preferably 0.1 to 2(particularly 0.2 to 1).

The convex part (3) can be formed to extend linearly in a plan view, forexample, as shown in FIG. 1. In this case, the width (w1) of the convexpart in the short length direction may be uniform along the long lengthdirection thereof or may be different in the long length directionthereof (for example, see FIG. 11D). In addition, for example, as shownin FIG. 8, a plurality of the convex parts (33) can be formed to bearranged in a line in a plan view. In this case, the respective convexparts may have the same shape and size, or may have different shapes andsizes. Further, for example, as shown in FIG. 12, the convex parts (43)can be formed in a dot shape in a plan view. In this case, for example,the plurality of convex parts can be arranged at random or according toa predetermined rule.

The configuration, material, size and the like of the skin material (1,31) are not particularly limited. This skin material can include a basecloth layer (11) containing at least thermoplastic resin fibers and madeof a knit, and a skin layer (12) bonded to a surface of the base clothlayer, for example, as shown in FIG. 2. In this case, for example, inthe base cloth layer (11), a concave heat-deformed part (13) in whichthe thermoplastic resin fibers are thermally deformed is formed at aposition corresponding to the concave part (2, 32), and theheat-deformed part includes a bulging part (14) at a positioncorresponding to the convex part (3, 33, 43). The skin layer (12) canfollow the surface shape of the heat-deformed part (13).

Examples of the knit include a three-dimensional knitted fabric, ajersey, and a tricot. Among these, in terms of bulkiness, athree-dimensional knitted fabric is preferable. This three-dimensionalknitted fabric can be knitted by, for example, a knitting machine suchas a double raschel knitting machine or a circular knitting machine.Also, the three-dimensional knitted fabric can be formed in such amanner that a front side knitted fabric (17) and a back side knittedfabric (18) are connected by a binding yarn (19), for example, as shownin FIG. 2. In this case, for example, at least thermoplastic resinfibers are used for the binding yarn (19). In the concave heat-deformedpart (13), the binding yarn can fall down so that thickness of the basecloth layer (11) may become small.

Examples of constituent yarns for the knitted fabric (17, 18) includeyarns made of one or a combination of two or more of synthetic fibers,regenerated fibers, natural fibers and the like. Further, a filamentyarn is usually used as the binding yarn (19). This filament yarn may beeither a multifilament or a monofilament, and may be subjected to knowntexturing, for example, false twisting. The type of the fibersconstituting the filament yarn is not particularly limited, and thefibers may be any of synthetic fibers, recycled fibers, natural fibers,and the like.

The thickness of the base cloth layer (11) is not particularly limited,and can be set to, for example 1 to 20 mm, particularly 2 to 10 mm. Ifthis thickness is within the above range, sufficient cushioningproperties can be obtained, and three-dimensional shaping can beperformed sufficiently.

The skin layer (12) is usually bonded to one side of the base clothlayer by adhesion, heat welding or the like. As the skin layer, knownskin materials such as a design cloth (fabric), a resin layer (PU, PVC,PP, etc.), synthetic leather, artificial leather, and natural leatherare used. The skin layer may be a single layer or a layer in which aplurality of layers are laminated. The thickness of the skin layer isnot particularly limited, and can be set to, for example 0.01 to 10 mm,especially 0.1 to 5 mm. If this thickness is within the above range, theskin layer can favorably follow the surface shape of the base clothlayer.

The application or the like of the skin material (1, 31) is notparticularly limited. This skin material may be used as a skin materialconstituting vehicle interior materials such as door trims, roof trims,seats, dashboards, pillar garnishes, console boxes, armrests and deckside trims, or may be used as a skin material constituting dailynecessities such as furniture including sofas, bags, wallets andclothes. Further, this skin material can be used as a structure bondedby adhesion, heat fusion or the like on a base material made of, forexample, a synthetic resin, a metal or wood, for example, as shown inFIG. 4. One or more other functional layers such as a sound absorbinglayer and an elastic layer may be interposed between the skin materialand the base material.

Method for Producing Skin Material

The method for producing a skin material according to the presentembodiment is a method for producing a skin material (1, 31) having aconcave part (2, 32) formed on the front surface side, for example, asshown in FIGS. 5 and 6, comprising heat-pressing a raw material (22)between an embossing die (25, 35) and an elastic sheet (29) to form theconcave part (2, 32), and, at the same time, forming a convex part (3,33, 43) on a bottom surface (2 a, 32 a) of the concave part. The methodfor producing a skin material can be, for example, a method forproducing the skin material (1, 31) according to the above-describedembodiment.

The configuration of the embossing die (25, 35), the form of theheat-pressing, and the like are not particularly limited. In theembossing die, a pressing rib (27, 37) can be protrudingly provided on asurface thereof, and the pressing rib can be formed with a gap part (28,38) that opens at its tip end surface, for example, as shown in FIG. 5.In this case, for example, during the heat-pressing, the pressing rib(27, 37) presses the front surface side of a part of the raw material,thereby making it possible to form the concave part (2, 32), and, at thesame time, a part of the raw material is pushed out into the gap part(28, 38) by repulsive force (F) of the elastic sheet (29) due to thepressing of the pressing rib, thereby making it possible to form theconvex part (3, 33, 43). Further, the heat-pressing can be performed,for example, in a state where the surface (26 a, 36 a) of the embossingdie (25, 35) on which the pressing rib (27, 37) is protrudingly providedis spaced apart from the front surface of the raw material (22).

The material, hardness, thickness, etc. of the elastic sheet (29) arenot particularly limited. Examples of the material for this elasticsheet include rubbers such as natural rubber, synthetic natural rubber,styrene butadiene rubber, butadiene rubber, chloroprene rubber, butylrubber, nitrile rubber, ethylene/propylene rubber, chlorosulfonatedpolyethylene rubber, acrylic rubber, urethane rubber, silicone rubber,fluororubber and polysulfide rubber, and thermoplastic elastomers. Amongthese, silicone rubber, fluororubber, or acrylic rubber is preferablefrom the viewpoint of impact resilience and heat resistance. Further,examples of the hardness of the elastic sheet (29) in accordance withJIS K 6253 include E10 to D100 (preferably, A10 to A90). If the hardnessis within the above range, more appropriate pressing force is applied tothe raw material during the heat-pressing. In addition, the alphabetattached to the head of the hardness value shows a value measured with adurometer of type E, type D or type A. Further, the thickness of theelastic sheet (29) may be, for example, 0.5 to 15 mm (preferably, 2 to 8mm). If this thickness is within the above range, further appropriatepressing, force is applied to the raw material during the heat-pressing.

The configuration, material, size and the like of the raw material (22)are not particularly limited. This raw material can include a base clothlayer (11) containing at least thermoplastic resin fibers and made of aknit, and a skin layer (12) bonded to a surface of the base cloth layer,for example, as shown in FIG. 5. In this case, for example, thethermoplastic resin fibers are thermally deformed during theheat-pressing so that the concave heat-deformed part (13) including thebulging part (14) can be formed in the base cloth layer (11), and theskin layer (12) follows the surface shape of the heat-deformed part(13), thereby making it possible to form the concave part (2, 32) andthe convex part (3, 33, 43). In addition, the configurations describedin connection with the skin material (1, 31) according to theabove-described embodiment can be employed as those of the base clothlayer (11) and the skin layer (12).

Note that reference signs in parentheses attached to the respectivecomponents described in the above embodiments indicate correspondencerelationships with specific components referred to in the Examples thatwill be described later.

EXAMPLES

Hereinafter, the present invention will be described in detail by way ofexamples with reference to the accompanying drawings.

Example 1 (1) Configuration of Skin Material

A skin material 1 according to the present example, has a concave part 2formed (shaped) on the front surface side, and a convex part 3 formed(shaped) on a bottom surface 2 a of the concave part 2, as shown inFIGS. 1 and 2. This skin material 1 is formed in a flexible sheet shape.Further, the bottom surface of the skin material 1 is formed in a flatshape without unevenness.

The concave part 2 is formed to extend linearly in a plan view. Further,in a longitudinal cross section along the short length direction of theconcave part 2, both side surfaces 6 rising from both side edges of thebottom surface 2 a are formed in a curved shape so as to go away fromeach other toward the opening side of the concave part 2. The concavepart 2 has a depth d of about 3 mm and a width w2 in the short lengthdirection of about 5 mm.

The convex part 3 is formed to extend linearly in a plan view. Theconvex part 3 is formed in a mountain shape (i.e., a bulging shape) in avertical cross section along the short length direction. The convex part3 has a height h of about 1 mm and a width w1 in the short lengthdirection of about 2 mm.

As shown in FIGS. 3 and 4, the skin material 1 is used by being bonded,for example, to a door ornament (base material) 8 constituting a doortrim 7 for an automobile by adhesion, heat fusion or the like.

The skin material 1 includes a base cloth layer 11 containing at leastthermoplastic resin fibers and made of a knit, and a skin layer 12bonded to a surface of the base cloth layer 11 by adhesion, heat fusionor the like. In the base cloth layer 11, a concave heat-deformed part 13in which the thermoplastic resin fibers are thermally deformed is formedat a position corresponding to the concave part 2. The heat-deformedpart 13 includes a bulging part 14 at a position corresponding to theconvex part 3. The bulging part 14 bulges on a surface of theheat-deformed part 13. The concave part 2 and the convex part 3 areformed by the skin layer 12 following the surface shape of theheat-deformed part 13 including the bulging part 14.

The base cloth layer 11 has a thickness, at a site other than theheat-deformed part 13, of about 4 mm. The skin layer 12 has a thicknessof about 0.4 mm. Also, the knit is a three-dimensional knitted fabricobtained using a double raschel knitting machine (or circular knittingmachine). This three-dimensional knitted fabric is formed in such amanner that a front side knitted fabric 17 and a back side knittedfabric 18 are connected by a binding yarn 19. The binding yarn 19 fallsdown so that the thickness of the base cloth layer 11 becomes small,whereby the heat-deformed part 13 is formed. Moreover, the constituentyarns of the front side knitted fabric 17 are polyester resin fibers,and the thickness thereof is about 0.4 mm. Moreover, the constituentyarns of the back side knitted fabric 18 are polyester resin fibers, andthe thickness thereof is about 0.4 mm. Furthermore, the binding yarn 19is a polyester resin fiber.

(2) Method for Producing Skin Material

In a method for producing the skin material according to the presentexample, as shown in FIGS. 5 and 6, a raw material 22 is heat-pressedusing an embossing machine 21 to obtain the skin material 1.

The raw material 22 includes the base cloth layer 11 containing at leastthermoplastic resin fibers and made of a knit, and the skin layer 12bonded to a surface of the base cloth layer 11. This raw material 22 isformed in a sheet shape without unevenness.

The embossing machine 21 includes a pedestal 23 (also referred to as a“surface plate”), and an embossing die 25 that can be moved closer to oraway from the pedestal 23. The pedestal 23 and the embossing die 25 canbe heated by a heating means (not shown).

The embossing die 25 includes a support part 26 and a pressing rib 27protrudingly provided on a surface of the support part 26. The pressingrib 27 is formed with a gap part 28 that opens at its tip end surface(see FIG. 7). An elastic sheet 29 made of silicone rubber is laid on theupper surface of the pedestal 23. The elastic sheet 29 has such hardnessand thickness that an appropriate repulsive force F is applied to theraw material 22 during the heat-pressing.

In the method for producing the skin material, as shown in FIG. 5A, theraw material 22 is placed (set) on the elastic sheet 29 of the embossingmachine 21 in a die open state so that the base cloth layer 11 is incontact with the elastic sheet 29. When the embossing machine 21 isdie-closed from that state, the raw material 22 is heat-pressed betweenthe embossing die 25 and the elastic sheet 29, as shown in FIG. 59, sothat the concave part 2 is formed, and, at the same time, the convexpart 3 is formed on the bottom surface 2 a of the concave part 2.

During the heat-pressing, the pressing rib 27 presses the front surfaceside of a part of the raw material 22 in a state where the surface 26 aof the embossing die 25 on which the pressing rib 27 is protrudinglyprovided and the bottom surface of the gap part 28 are spaced apart fromthe front surface of the raw material 22, thereby forming the concavepart 2, and, at the same time, a part of the raw material 22 is pushedup into the gap part 28 by the repulsive force F of the elastic sheet 29due to the pressing of the pressing rib 27, thereby forming the convexpart 3. Specifically, the thermoplastic resin fibers are thermallydeformed by the pressing of the pressing rib 27, so that the concaveheat-deformed part 13 including the bulging part 14 is formed in thebase cloth layer 11, and the skin layer 12 follows the surface shape ofthe heat-deformed part 13 including the bulging part 14, thereby formingthe concave part 2 and the convex part 3. The heat-deformed part 13 isformed by the binding yarn 19 falling down so that the thickness of thebase cloth layer 11 becomes small.

Thereafter, when the embossing machine 21 is brought into a die openstate, as shown in FIG. 6, the skin material 1 in which the convex part3 is formed on the bottom surface 2 a of the concave part 2 is obtained.

In the present example, the heat-pressing is performed under theconditions: a heating time of about 20 seconds, a pedestal temperatureof about 200° C., and an embossing die temperature of about 150° C.

(3) Effects of Example

According to the method for producing the skin material of the presentexample, the raw material 22 is heat-pressed between the embossing die25 and the elastic sheet 29 to form the concave part 2, and, at the sametime, the convex part 3 is formed on the bottom surface 2 a of theconcave part 2. Thus, the elongated line-shaped convex part 3 is clearlyexpressed on the bottom surface 2 a of the concave part 2. Therefore,the degree of freedom of design expression in the skin material 1 can beincreased.

In the present example, the pressing rib 27 is protrudingly provided onthe surface 26 a of the embossing die 25, and the pressing rib 27 isformed with the gap part 28. During the heat-pressing, the pressing rib27 presses the front surface side of a part of the raw material 22 toform the concave part 2, and, at the same time, a part of the rawmaterial 22 is pushed out into the gap part 28 by the repulsive force Fof the elastic sheet 29 due to the pressing of the pressing rib 27,thereby forming the convex part 3. Thus, the elongated line-shapedconvex part 3 is more clearly expressed.

Further, in the present example, the heat-pressing is performed in astate where the surface 26 a of the embossing die 25 on which thepressing rib 27 is protrudingly provided is spaced apart from the frontsurface of the raw material 22. Thus, thermal deterioration of the frontsurface of the skin material 1 is suppressed.

Further, in the present example, the elastic sheet 29 is formed ofsilicone rubber. Therefore, a part of the raw material 22 is effectivelypushed out into the gap part 28 by the appropriate repulsive force F ofthe elastic sheet 29.

According to the skin material 1 of the present example, the convex part3 is formed on the bottom surface 2 a of the concave part 2. Thus, theelongated line-shaped convex part 3 is clearly expressed on the bottomsurface 2 a of the concave part 2. Therefore, the degree of freedom ofdesign expression in the skin material 1 can be increased.

Further, in the present example, the convex part 3 is formed to extendlinearly in a plan view. Thus, the elongated line-shaped convex part 3is clearly expressed. Further, in the present example, the concave part2 is formed to extend linearly in a plan view. Thus, the elongatedline-shaped convex part 3 is clearly expressed along the bottom surface2 a of the linear concave part 2. Further, in the present example, thewidth w1 of the convex part 3 is about 2 mm. Thus, the more elongatedline-shaped convex part 3 is clearly expressed.

Further, in the present example, the skin material 1 includes the basecloth layer 11 and the skin layer 12, and, in the base cloth layer 11,the concave heat-deformed part 13 in which the thermoplastic resinfibers are thermally deformed is formed at a position corresponding tothe concave part 2. The heat-deformed part 13 includes the bulging part14 at a position corresponding to the convex part 3, and the skin layer12 follows the surface shape of the heat-deformed part 13. Thus, theelongated line-shaped convex part 3 can be more clearly expressed, andthe skin material 1 can have appropriate cushioning properties.

Further, in the present example, the bottom surface of the skin material1 is formed in a flat shape without unevenness. Thus, the skin material1 can be easily and reliably bonded to the door ornament 8.

Example 2

Next, a skin material 31 and a method for producing the same accordingto Example 2 will be described. Approximately the same components as inthe skin material 1 and the method for producing the same according toExample 1 are denoted by the same reference signs and detaileddescription thereof is omitted. Differences between the Examples will bedescribed in detail.

(1) Configuration of Skin Material

The skin material 31 according to the present example has a concave part32 formed (shaped) on the front surface side, and convex parts 33 formed(shaped) on a bottom surface 32 a of the concave part 32, as shown inFIGS. 8 and 9. This skin material 31 is formed in a flexible sheetshape. Further, the bottom surface of the skin material 31 is formed ina flat shape without unevenness.

The concave part 32 is formed to extend linearly in a plan view. Aplurality of the convex parts 33 is formed to be arranged in a line in aplan view. Each of these convex parts 33 is formed in a long shape in aplan view. Further, each of the convex parts 33 is formed in a mountainshape (i.e., a bulging shape) in a vertical cross section orthogonal tothe long length direction. Further, each of the convex parts 33 has aheight h of about 1 mm and a width w1 in the short length direction ofabout 2 mm.

(2) Method for Producing Skin Material

In a method for producing the skin material according to the presentexample, a raw material 22 is heat-pressed using an embossing machine 21to obtain the skin material 31 (see FIGS. 5 and 6). In the embossingmachine 21, an embossing die 35 is employed instead of the embossing die25.

As shown in FIG. 10, the embossing die 35 includes a support part 36 anda pressing rib 37 protrudingly provided on a surface of the support part36. The pressing rib 37 is formed with a plurality of gap parts 38 thatopen at the tip end surface thereof.

During the heat-pressing, the pressing rib 37 presses the front surfaceside of a part of the raw material 22 in a state where the surface 35 aof the embossing die 35 on which the pressing rib 37 is protrudinglyprovided and the bottom surface of each of the gap parts 38 are spacedapart from the front surface of the raw material 22, thereby forming theconcave part 32, and, at the same time, a part of the raw material 22 ispushed up into each of the gap parts 38 by the repulsive force F of theelastic sheet 29 due to the pressing of the pressing rib 37, therebyforming each of the convex parts 33.

(3) Effects of Example

According to the skin material 31 and the method for producing the sameaccording to the present example, approximately the same actions/effectsas those of the skin material 1 and the method for producing the sameaccording to the above-described example can be obtained. Additionally,the plurality of convex parts 33 are formed to be arranged in a line ina plan view, and thus the elongated dotted line-shaped convex part 33 isclearly expressed. Therefore, the degree of freedom of design expressionin the skin material 31 can be increased.

The present invention is not limited to the above-described examples,and can be variously modified within the scope of the present inventiondepending on the purpose and use. Specifically, in the above-describedexamples, the convex part 3 and the concave part 2 extending in astraight line have been exemplified, but the present invention is notlimited thereto. For example, as shown in FIG. 11A, a convex part 3 anda concave part 2 extending in a curve may be employed.

Further, in the above-described examples, the plurality of convex parts33 arranged in a straight line has been exemplified, but the inventionis not limited thereto. For example, as shown in FIG. 11B, a pluralityof convex parts 33 arranged in a curve may be employed. Further, forexample, as shown in FIG. 12, a plurality of dot-shaped convex parts 43arranged at random or according to a predetermined rule may be employed.

Further, in the above-described examples, one convex part 3 and oneconcave part 2 extending linearly have been exemplified, but the presentinvention is not limited thereto. For example, as shown in FIGS. 11C and12, two or more convex parts 3 and concave parts 2 extending linearlyand intersecting may be employed.

Moreover, the skin materials 1 and 31 and raw material 22 each whichinclude the base cloth layer 11 made of a knit have been exemplified inthe above-described examples, but the present invention is not limitedthereto, For example, the skin materials 1 and 31 and raw material 22may each include a base cloth layer 11 made of a fabric such as atextile or a nonwoven fabric, a foam sheet or the like.

Moreover, in the above-described examples, the heating temperature,time, etc. of heat-pressing are suitably selected according to thematerial for the raw material and the like. The heating temperature canbe, for example, 100 to 200° C. (particularly 120 to 180° C.). Theheating time may be different or identical between on the front surfaceside and on the back surface side of the raw material. The heating timecan be set to, for example, 0.1 to 600 seconds.

Further, in the above-described examples, the forms in which the concavegap part 28, 38 is formed on the tip end side of the pressing rib 27, 37have been exemplified, but the present invention is not limited thereto.A form in which a gap part is formed over a range from the proximal endto the tip end of the pressing rib 27, 37 may be employed.

Further, in the above-described examples, the heat-pressing performed ina state where the surface 26 a, 36 a of the embossing die 25, 35 isspaced apart from the front surface of the raw material 22 has beenexemplified, but the present invention is not limited thereto.Heat-pressing performed in a state where the surface 26 a, 36 a of theembossing die 25, 35 is in contact with the front surface of the rawmaterial 22 may be employed.

Further, in the above-described examples, the forms in which theembossing die 25, 35 and the pedestal 23 are moved closer to or awayfrom each other to heat-press the raw material 22 have been exemplified,but the present invention is not limited thereto. For example, the rawmaterial 22 may be heat-pressed by rotating a roll-shaped embossing die.

It is noted that the foregoing examples have been provided merely forthe purpose of explanation and are in no way to be construed as limitingof the present invention. While the present invention has been describedwith reference to exemplary embodiments, it is understood that the wordswhich have been used herein are words of description and illustration,rather than words of limitation. Changes may be made, within the purviewof the appended claims, as presently stated and as amended, withoutdeparting from the scope and spirit of the present invention in itsaspects. Although the present invention has been described herein withreference to particular structures, materials and embodiments, thepresent invention is not intended to be limited to the particularsdisclosed herein; rather, the present invention extends to allfunctionally equivalent structures, methods and uses, such as are withinthe scope of the appended claims.

The present invention is not limited to the above-described embodiments,and various variations and modifications may be possible withoutdeparting from the scope of the present invention.

The present invention is widely used in the field related to skinmaterials in various industries such as vehicles (automobiles andrailway vehicles), aircraft, ships, buildings, furniture and apparel.

What is claimed is:
 1. A method for producing a skin material having aconcave part formed on a front surface side, comprising: heat-pressing araw material between an embossing die and an elastic sheet to form theconcave part and; at the same time, forming a convex part on a bottomsurface of the concave part.
 2. The method for producing a skin materialaccording to claim 1, wherein a pressing rib is protrudingly provided ona surface of the embossing die, wherein the pressing rib is formed witha gap part that opens at its tip end surface, and wherein, during theheat-pressing, the pressing rib presses the front surface side of a partof the raw material to form the concave part, and, at the same time, apart of the raw material is pushed out into the gap part by repulsiveforce of the elastic sheet due to the pressing of the pressing rib toform the convex part.
 3. The method for producing a skin materialaccording to claim 2, wherein the heat-pressing is performed in a statewhere the surface of the embossing die on which the pressing rib isprotrudingly provided is spaced apart from the front surface of the rawmaterial.
 4. A skin material having a concave part formed on a frontsurface side, wherein a convex part is formed on the bottom surface ofthe concave part.
 5. The skin material according to claim 4, wherein theconvex part is formed to extend linearly in a plan view or a pluralityof the convex parts are formed to be arranged in a line in a plan view.6. The skin material according to claim 5, wherein the concave part isformed to extend linearly in a plan view.
 7. The skin material accordingto claim 4, wherein a width of the convex part is 0.3 to 10 mm.
 8. Theskin material according to claim 4, wherein the skin material includes abase cloth layer containing at least thermoplastic resin fibers and madeof a knit, and a skin layer bonded to a surface of the base cloth layer,wherein, in the base cloth layer, a concave heat-deformed part in whichthe thermoplastic resin fibers are thermally deformed is formed at aposition corresponding to the concave part, wherein the heat-deformedpart includes a bulging part at a position corresponding to the convexpart, and wherein the skin layer follows a surface shape of theheat-deformed part.